TWM599406U - Docking station - Google Patents
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- TWM599406U TWM599406U TW109201870U TW109201870U TWM599406U TW M599406 U TWM599406 U TW M599406U TW 109201870 U TW109201870 U TW 109201870U TW 109201870 U TW109201870 U TW 109201870U TW M599406 U TWM599406 U TW M599406U
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1632—External expansion units, e.g. docking stations
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20009—Modifications to facilitate cooling, ventilating, or heating using a gaseous coolant in electronic enclosures
- H05K7/20127—Natural convection
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R27/00—Coupling parts adapted for co-operation with two or more dissimilar counterparts
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Abstract
本創作提出一種擴充座,其具有一基座、一主盒體、一蓋體、一中空層、及多個第一側向開口。主盒體內形成有一第一內部空間並具有多個第一穿孔,第一穿孔連通第一內部空間及中空層。蓋體固設於主盒體,而中空層位於蓋體與主盒體之間。第一側向開口形成於蓋體上,並連通於中空層。使用時,位於第一內部空間內的電子元件發熱後,能促使第一內部空間內的空氣向上流動至中空層,然後再由第一側向開口排出。同時,冷空氣可由第一側向開口流入中空層,然後再經由第一穿孔流入第一內部空間,而達到使內部電子元件散熱的效果。This creation proposes a docking station, which has a base, a main box body, a cover body, a hollow layer, and a plurality of first lateral openings. A first inner space is formed in the main box body and has a plurality of first perforations, and the first perforations communicate with the first inner space and the hollow layer. The cover body is fixed on the main box body, and the hollow layer is located between the cover body and the main box body. The first side opening is formed on the cover body and connected to the hollow layer. In use, after the electronic components in the first internal space generate heat, the air in the first internal space can be forced to flow upward to the hollow layer, and then discharged through the first lateral opening. At the same time, cold air can flow into the hollow layer through the first lateral opening, and then flow into the first internal space through the first through hole, so as to achieve the effect of dissipating the internal electronic components.
Description
本創作是關於一種擴充座,特別是關於一種能接合多種不同規格的連接埠的擴充座。This creation is about a docking station, especially about a docking station that can connect to ports of different specifications.
現有的擴充座是用於連接電子設備,因此擴充座內設有多個電子元件。其中有一種為便攜式的擴充座,為達到便攜的目的,將所有元件集結在一個尺寸較小的殼體內。然而,由於電子元件運作時會產生熱能,在越小的空間運作時,擴充座內部沒有足夠的空間讓空氣形成對流的通道,因此散熱效果不佳。此外,便攜式的擴充座中也無法安裝散熱鰭片或是散熱風扇等,導致整個擴充座運作時溫度無法有效排除。The existing docking station is used to connect electronic devices, so there are multiple electronic components in the docking station. One of them is a portable docking station. In order to achieve the purpose of portability, all components are assembled in a small-sized housing. However, because electronic components generate heat when they operate, when operating in a smaller space, there is not enough space inside the docking station for air to form a convection channel, so the heat dissipation effect is not good. In addition, the portable docking station cannot be equipped with cooling fins or cooling fans, so that the temperature cannot be effectively eliminated when the entire docking station is operating.
另一方面,由於便攜式的擴充座體積小,內部電子元件離殼體非常近,因此電子元件的熱量會直接傳遞至殼體相鄰近的部分。換言之,擴充座的表面溫度差異非常大,有些區域可能達到使用者難以忍受的高溫,但同時有些區域仍維持在接常溫。這也是不佳的散熱狀態的表徵之一。On the other hand, due to the small size of the portable docking station, the internal electronic components are very close to the housing, so the heat of the electronic components is directly transferred to the adjacent part of the housing. In other words, the surface temperature of the docking station varies greatly, and some areas may reach high temperatures that users can't stand, but at the same time, some areas are still at room temperature. This is also one of the signs of poor heat dissipation.
有鑑於此,提出一種更佳的改善方案,乃為此業界亟待解決的問題。In view of this, proposing a better improvement plan is an urgent problem in the industry.
本創作的主要目的在於,提出一種擴充座,其用以連接至少一電子裝置,且於運作時能於內部形成空氣流動的空間以達到降溫及均勻化表面溫度的效果。The main purpose of this creation is to propose a docking station, which is used to connect at least one electronic device and can form an air flow space inside during operation to achieve the effect of cooling and uniformizing the surface temperature.
為達上述目的,本創作所提出的擴充座具有: 一基座; 一主盒體,其固設於該基座,且該主盒體內形成有一第一內部空間,並具有: 一第一表面; 複數個第一穿孔,該些第一穿孔形成於該第一表面並連通於該第一內部空間; 至少一第一側壁面,各該至少一第一側壁面連接於該第一表面的邊緣,該至少一第一側壁面具有: 至少一連接孔,其穿設形成於該至少一第一側壁面,且各該至少一連接孔用以連接該電子裝置; 一蓋體,其固設於該第一表面,其中該蓋體與該第一表面之間形成一中空層,該中空層藉由該等第一穿孔連通於該主盒體的該第一內部空間;以及 複數個第一側向開口,其形成於該蓋體上,並連通於該中空層。 In order to achieve the above-mentioned purpose, the docking station proposed in this creation has: A base A main box body is fixed on the base, and a first internal space is formed in the main box body and has: A first surface; A plurality of first through holes, the first through holes are formed on the first surface and communicate with the first inner space; At least one first side wall surface, each of the at least one first side wall surface is connected to an edge of the first surface, and the at least one first side wall surface has: At least one connecting hole formed through the at least one first side wall surface, and each of the at least one connecting hole is used for connecting the electronic device; A cover body is fixed on the first surface, wherein a hollow layer is formed between the cover body and the first surface, and the hollow layer is connected to the first interior of the main box body through the first through holes Space; and A plurality of first lateral openings are formed on the cover body and communicate with the hollow layer.
因此,本創作的優點在於,透過第一穿孔連通中空層及主盒體的第一內部空間,使得位於第一內部空間內的電子元件發熱後,能促使第一內部空間內的空氣向上流動至中空層,然後再由第一側向開口排出。同時,冷空氣可由第一側向開口流入中空層,然後再經由第一穿孔流入主盒體的第一內部空間。換言之,本創作的擴充座內部形成讓空氣自然對流的路徑,而達到使內部電子元件散熱的效果,使本創作的擴充座的外表面以及其內電子元件的溫度能有效降低。此外,空氣於中空層內流動時,還能使熱能均勻分散在蓋體上。Therefore, the advantage of this creation is that the hollow layer and the first internal space of the main box body are connected through the first perforation, so that after the electronic components located in the first internal space generate heat, the air in the first internal space can be encouraged to flow upward to The hollow layer is then discharged from the first lateral opening. At the same time, cold air can flow into the hollow layer through the first lateral opening, and then flow into the first internal space of the main box body through the first perforation. In other words, the docking station of this creation forms a path for natural convection of air to achieve the effect of dissipating the internal electronic components, so that the outer surface of the docking station of this creation and the temperature of the electronic components inside can be effectively reduced. In addition, when the air flows in the hollow layer, the heat energy can be evenly dispersed on the cover.
更進一步而言,如所述之擴充座中,該蓋體具有: 一蓋板,其遮蔽該第一表面,該蓋體與該第一表面平行且間隔設置,該中空層形成於該蓋體與該第一表面之間;以及 複數個連接柱,各該連接柱具有一第一端及一第二端,各該連接柱的該第一端固設於該蓋板,各該連接柱的該第二端固設於該主盒體,各該第一側向開口形成於兩相鄰的該連接柱、該蓋板、及該主盒體的該第一表面之間。 Furthermore, in the said docking station, the cover has: A cover plate for shielding the first surface, the cover body and the first surface are arranged in parallel and spaced apart, the hollow layer is formed between the cover body and the first surface; and A plurality of connecting columns, each of the connecting columns has a first end and a second end, the first end of each connecting column is fixed to the cover plate, and the second end of each connecting column is fixed to the main For the box body, each of the first lateral openings is formed between two adjacent connecting posts, the cover plate, and the first surface of the main box body.
更進一步而言,如所述之擴充座中,該蓋體更具有複數個強化肋,其位於該中空層內,且各該等化肋連接於該蓋板及其中一該連接柱。Furthermore, in the said docking station, the cover further has a plurality of reinforcing ribs, which are located in the hollow layer, and each of the equalized ribs is connected to the cover plate and one of the connecting posts.
更進一步而言,如所述之擴充座中,該蓋體更具有至少一間隔件,其位於該中空層內,並用以間隔該蓋板與該主盒體的該第一表面。Furthermore, in the docking station, the cover further has at least one spacer located in the hollow layer and used for separating the cover from the first surface of the main box.
更進一步而言,如所述之擴充座中,各該至少一間隔件具有: 一定位部,其具有一第一端及一第二端,該定位部的該第一端固設於該蓋板,該定位部的該第二端穿設於該主盒體的該第一表面;以及 一橫向延伸部,其連接於該定位部,並具有一第一側及一第二側,該橫向延伸部的該第一側連接於該蓋板,該橫向延伸部的該第二側抵靠於該主盒體的該第一表面。 Furthermore, in the said docking station, each of the at least one spacer has: A positioning portion having a first end and a second end, the first end of the positioning portion is fixed to the cover plate, and the second end of the positioning portion penetrates the first end of the main box body Surface; and A lateral extension portion connected to the positioning portion and having a first side and a second side. The first side of the lateral extension portion is connected to the cover plate, and the second side of the lateral extension portion abuts On the first surface of the main box body.
更進一步而言,如所述之擴充座中,該蓋板與該第一表面間的間距為1公釐至5公釐。Furthermore, in the docking station, the distance between the cover plate and the first surface is 1 mm to 5 mm.
更進一步而言,如所述之擴充座中,該基座具有: 一第二表面;以及 至少一第二側壁面,各該至少一第二側壁面連接於該第二表面的邊緣。 Furthermore, in the said docking station, the base has: A second surface; and At least one second side wall surface, and each of the at least one second side wall surface is connected to an edge of the second surface.
更進一步而言,如所述之擴充座中,該基座內形成有一第二內部空間,且該基座具有: 複數個第二穿孔,該些第二穿孔形成於該第二表面,且該基座的該第二內部空間藉由該等第二穿孔連通於該主盒體的該第一內部空間;以及 複數個第二側向開口,其貫穿形成於該至少一第二側壁面並連通於該第二內部空間。 Furthermore, in the said docking station, a second internal space is formed in the base, and the base has: A plurality of second perforations, the second perforations are formed on the second surface, and the second inner space of the base is connected to the first inner space of the main box through the second perforations; and A plurality of second lateral openings are formed through the at least one second side wall surface and communicate with the second internal space.
更進一步而言,如所述之擴充座中: 第二表面為圓形; 該基座共具有一該第二側壁面,該第二側壁面環繞並連接於該第二表面的邊緣,且該基座更具有: 一容置槽,其為一環槽,且形成於該至少一第二側壁面上; 該擴充座更具有: 一線材,其選擇性地容置於該容置槽內,且該線材容置於該容置槽內時環繞該基座。 Furthermore, in the said docking station: The second surface is round; The base has a second side wall surface in total, the second side wall surface surrounds and is connected to the edge of the second surface, and the base further has: A accommodating groove, which is a ring groove and is formed on the at least one second side wall surface; The docking station also has: A wire, which is selectively accommodated in the containing groove, and surrounds the base when the wire is accommodated in the containing groove.
更進一步而言,如所述之擴充座中: 該基座更具有: 一容置槽; 至少一定位凸塊,其形成於該容置槽內; 該擴充座更具有: 一線材,其選擇性地容置於該容置槽內並被該至少一定位凸塊夾固。 Furthermore, in the said docking station: The base also has: A holding tank; At least one positioning protrusion formed in the accommodating groove; The docking station also has: A wire is selectively accommodated in the accommodating groove and clamped by the at least one positioning protrusion.
首先請參考圖1。本創作提出一種擴充座,能連接多個電子裝置。具體而言,本創作的擴充座還具有一主盒體10、一蓋體20、一基座30、以及一線材40,而主盒體10及基座30內可設置有多個電子元件,線材40用於用於連接一電子裝置。Please refer to Figure 1 first. This creation proposes a docking station that can connect multiple electronic devices. Specifically, the docking station of the present creation also has a
接著請參考圖1、圖2、及圖5。主盒體10內形成有一第一內部空間100,且第一內部空間100用於容置多個電子元件。主盒體10具有一第一表面11及至少一第一側壁面12,而第一側壁面12連接於第一表面11的邊緣。本實施例中,第一表面11可為圓形面,因此主盒體10可僅具有一第一側壁面12。具體而言,第一側壁面12為一環壁面,其環繞並連接於第一表面11的邊緣。主盒體10具有複數個第一穿孔110,第一穿孔110形成於第一表面11並連通於第一內部空間100。第一穿孔110於第一表面11上所穿孔的位置可為隨機分佈,也可正對於第一內部空間100所容置的電子元件。第一側壁面12具有至少一前述的連接孔120,連接孔120穿設形成於第一側壁面12,且一連接孔120用以連接一電子裝置。Please refer to Figure 1, Figure 2, and Figure 5. A first
接著請一併參考圖3。蓋體20固設於主盒體10,並遮蔽第一表面11。蓋體20具有一蓋板21及複數個連接柱22,且選擇性地具有複數個強化肋23及至少一間隔件24。蓋板21遮蔽第一表面11,且蓋板21與第一表面11平行且間隔設置,而蓋板21與第一表面11間的間距可為1公釐至5公釐。藉此,中空層201形成於蓋板21與第一表面11之間,且中空層201藉由第一穿孔110連通於主盒體10的第一內部空間100。本實施例中,主盒體10的第一表面11與蓋體20的蓋板21皆為圓形且周緣相齊平。各連接柱22具有一第一端及一第二端,各連接柱22的第一端固設於蓋板21,第二端固設於主盒體10。藉此,兩相鄰的連接柱22、蓋體20、及主盒體10的該第一表面11之間形成有一第一側向開口202。換言之,蓋體20具有複數個第一側向開口202,且第一側向開口202連通於該中空層201。強化肋23位於中空層201內,且各強化肋23連接於蓋板21及其中一連接柱22。Then please refer to Figure 3 together. The
本實施例中具有多個間隔件24,位於該中空層內,並用以間隔蓋體20與該主盒體10的第一表面11。各間隔件24具有一定位部241及一橫向延伸部242。定位部241具有相對的一第一端及一第二端。各定位部241的第一端固設於蓋板21,第二端穿設於主盒體10的第一表面11。橫向延伸部242連接於定位部241,並具有相對的一第一側及一第二側。橫向延伸部242的該第一側連接於蓋板20,橫向延伸部242的第二側抵靠於主盒體10的第一表面11。藉此,間隔件24可用於支撐蓋板21的結構,以確保蓋體20與主盒體10的第一表面11間保持有間距。In this embodiment, there are a plurality of
接著請參考圖2至圖6。主盒體10其固設於基座30上,且基座30內形成有一第二內部空間301,而基座30外形成一容置槽302。線材40選擇性地容置於該容置槽302內。基座30還可具有一第二表面31及至少一第二側壁面32。第二側壁面32連接於第二表面31的邊緣,而容置槽302形成於第二側壁面32上。本實施例中,第二表面31為圓形,且基座30共具有一第二側壁面32。換言之,第二側壁面32為環壁面而繞並連接於第二表面31的邊緣。同時,容置槽302可為一環槽,且線材40容置於容置槽302內時即環繞基座30。為使線材40便於固定,基座30還可具有形成有至少一定位凸塊33,至少一定位凸塊33形成於容置槽302內並用以夾固線材40。Then please refer to Figure 2 to Figure 6. The
基座30具有複數個第二穿孔310及複數個第二側向開口320。第二穿孔310穿設形成於第二表面31,且基座30的第二內部空間301藉由第二穿孔310連通於主盒體10的第一內部空間100。第二側向開口320貫穿形成於第二側壁面32並連通於第二內部空間301。本實施例中,第二側向開口320位於容置槽302內,但不以此為限。The
接著請參考圖5至圖7。透過上述結構,在使用本創作的擴充座,首先將擴充座的線材40拉出而連接於一電子裝置,並將另一電子裝置的線材40結合於本創作的擴充座的連結孔。當訊號於上述電子裝置間傳輸時,本創作的擴充座內的電子元件即會產生熱能,而熱能可使第二內部空間301內的空氣通過部分的第二穿孔310向上流動至第一內部空間100,而第一內部空間100內的空氣通過部分的第一穿孔110向上流動至中空層201,然後中空層201內的空氣再通過部分的第一側向開口202排出。同時,空氣對流可由其餘的第一側向開口202流入中空層201,然後再由其餘的第一穿孔110向下流動至第一內部空間100內,甚至進一步地再由其餘的第二穿孔310向下流動至第二內部空間301內。此外,冷空氣也可由第二側向開口320流入第二內部空間301內,然後吸收熱能後依序通過第一內部空間100及中空層201,再由第一側向開口202排出。Then please refer to Figure 5 to Figure 7. Through the above structure, when using the docking station of the present creation, the
因此,本創作的擴充座內部形成讓空氣自然對流的路徑,而達到使內部電子元件散熱的效果。此外,透過多個第一穿孔110及多個第一側向開口202,空氣可形成自然對流的路徑,且可同時形成流入擴充座的路徑及流出擴充座的路徑。藉此,本創作的擴充座的外表面以及其內電子元件的溫度能有效降低。Therefore, in the docking station of this creation, a path for natural convection of air is formed inside, and the effect of dissipating the internal electronic components is achieved. In addition, through the plurality of first through
此外,熱空氣流入中空層201後會由多個第一側向開口202流出,因此在散熱的過程中還能分散熱能,因此位於中空層201上方的蓋板21的熱量較為均勻,而不會造成鄰近電子元件周邊的部分溫度過高的狀況。同時,主盒體10的材質可為金屬,而蓋體20的材質可為塑膠,更能達到避免蓋體20在熱能均勻化前即傳至表面的效果。In addition, after the hot air flows into the
10:主盒體 100:第一內部空間 11:第一表面 110:第一穿孔 12:第一側壁面 120:連接孔 20:蓋體 201:中空層 202:第一側向開口 21:蓋板 22:連接柱 23:強化肋 24:間隔件 241:定位部 242:橫向延伸部 30:基座 301:第二內部空間 302:容置槽 31:第二表面 310:第二穿孔 32:第二側壁面 320:第二側向開口 33:定位凸塊 40:線材 10: Main box 100: The first internal space 11: First surface 110: first piercing 12: The first side wall surface 120: connecting hole 20: Lid 201: Hollow layer 202: first lateral opening 21: cover 22: connecting column 23: strengthening ribs 24: Spacer 241: Positioning Department 242: Lateral extension 30: Pedestal 301: Second Internal Space 302: Containment Slot 31: second surface 310: second perforation 32: second side wall surface 320: second side opening 33: positioning bump 40: Wire
圖1為本創作的立體示意圖。 圖2為本創作的分解示意圖。 圖3為本創作的蓋體的放大示意圖。 圖4為本創作的俯視示意圖。 圖5為本創作於圖4中5-5割面線上的剖面示意圖。 圖6為本創作於圖4中6-6割面線上的剖面示意圖。 圖7為本創作的使用狀態示意圖。 Figure 1 is a three-dimensional schematic diagram of the creation. Figure 2 is an exploded schematic diagram of this creation. Figure 3 is an enlarged schematic diagram of the created cover. Figure 4 is a schematic top view of the creation. Fig. 5 is a schematic cross-sectional view created on the 5-5 cut line in Fig. 4. Fig. 6 is a schematic cross-sectional view created on the 6-6 cut line in Fig. 4. Figure 7 is a schematic diagram of the usage status of the creation.
10:主盒體 10: Main box
12:第一側壁面 12: The first side wall surface
120:連接孔 120: connecting hole
20:蓋體 20: Lid
202:第一側向開口 202: first lateral opening
21:蓋板 21: cover
22:連接柱 22: connecting column
30:基座 30: Pedestal
302:容置槽 302: Containment Slot
32:第二側壁面 32: second side wall surface
33:定位凸塊 33: positioning bump
40:線材 40: Wire
Claims (10)
Priority Applications (2)
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TW109201870U TWM599406U (en) | 2020-02-20 | 2020-02-20 | Docking station |
US17/177,171 US11493961B2 (en) | 2020-02-20 | 2021-02-16 | Docking station |
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TW109201870U TWM599406U (en) | 2020-02-20 | 2020-02-20 | Docking station |
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TWM599406U true TWM599406U (en) | 2020-08-01 |
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TW (1) | TWM599406U (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
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TWI285978B (en) * | 2005-12-09 | 2007-08-21 | Mitac Technology Corp | Wireless signal transceiver unit with rotating mechanism for adjusting antenna direction thereof |
KR102120721B1 (en) * | 2013-03-13 | 2020-06-09 | 삼성전자주식회사 | Appararus for docking electronic apparatus |
KR20150067673A (en) * | 2013-12-10 | 2015-06-18 | 엘지전자 주식회사 | Wireless charging device |
US9773601B2 (en) * | 2015-03-03 | 2017-09-26 | Attachit LLC | Magnetic mount system |
KR102377279B1 (en) * | 2017-03-28 | 2022-03-23 | 삼성전자주식회사 | Electronic device including cooling function and controlling method thereof |
KR102400745B1 (en) * | 2017-03-28 | 2022-05-23 | 삼성전자주식회사 | Docking station for electronic device |
KR20210063757A (en) * | 2019-11-25 | 2021-06-02 | 삼성전자주식회사 | Cooling fan controlling method and wireless charging device |
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US20210263559A1 (en) | 2021-08-26 |
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